JP4316646B2 - Terminal control apparatus and wireless LAN system - Google Patents

Description

  The present invention relates to a terminal control apparatus and a wireless LAN system that control wireless communication of wireless communication terminals connected to each other by a wireless LAN.

Each wireless communication terminal in the wireless LAN system senses the wireless channel prior to transmission of the wireless packet, and when the wireless channel is in use (channel busy), refrains from transmitting the wireless packet, When the wireless channel is not used (channel idle), the wireless packet is transmitted.
Such a wireless packet transmission method is generally called CSMA (Carrier Sense Multiple Access). For example, in the US wireless LAN standard IEEE 802.11, CSMA / CA (Carrier Sense Multiple Access Avid is used). (For example, see Non-Patent Documents 1 and 2).
On the other hand, in the European wireless LAN standard HiperLAN, a TDMA system that provides a transmission opportunity according to a transmission request of a wireless communication terminal is used.

In the US wireless LAN standard IEEE802.11, in addition to the basic channel (“Control Channel” or “Primary”), in addition to the basic channel (“Control Channel” or “Primary”), an extension channel (“Extension Channel” or “Secondary” is used. ")", A communication method using two or more channels is proposed.
In addition, in the US wireless LAN standard IEEE802.11, the efficiency according to the communication capacity increases with the use of MIMO (Multiple Input, Multiple Output) technology and the increase in communication capacity by using a plurality of basic channels. Since the need for efficient transmission has increased, a communication method using a plurality of channels has also been proposed.

Specifically, the following communication methods are proposed.
For example, with an existing wireless communication terminal L-STA (Legacy STA (AP)) that performs wireless communication using a channel with a bandwidth of 20 Hz, high-speed transmission such as MIMO is performed (the channel band used for wireless communication is 20-Hz wireless communication terminal HT-STA (High Throughput STA (AP)) and a wireless communication terminal HT-MC-STA (High Throughput Multi-channel STA) that performs high-speed wireless communication using a channel with a bandwidth of 40 Hz (AP)) is co-existing. Note that the description of STA (AP) indicates that either a STA (Station) that is a wireless LAN terminal or an AP (Access point) that is an access point may be used, but depending on the access method, either STA or AP Some of them only work with.

3 shows the frame format of the radio communication terminal L-STA, FIG. 4 shows the frame format of the radio communication terminal HT-STA, and FIG. 5 shows the frame format of the radio communication terminal HT-MC-STA.
In FIG. 3 to FIG. 5, L-STF (Legacy-Short Training Field) and L-LTF (Legacy-Long Training Field), which are common fields, are proposed in the existing standards, and are all wireless communications. This field is understandable by the terminal. L-STF and L-LTF are fields for performing phase synchronization, time synchronization, and the like for data to be transmitted.
Also, L-SIG (Legacy SIGNAL field), which is a common field, is a field that includes a modulation method (Rate), a data length (Length), and the like regarding data to be transmitted.
4 and 5 show the case where the number of antennas is one for simplification of explanation, but when using the MIMO technique, a plurality of antennas are used for one channel. Therefore, the frames of FIGS. 4 and 5 corresponding to a plurality of antennas are spatially multiplexed.

HT-SIG (HT SIGNAL field) is a field that can be understood only by the wireless communication terminal HT-STA and the wireless communication terminal HT-MC-STA (a field that the wireless communication terminal L-STA cannot understand). Contains information about data sent to.
HT-SFT, HT-LTF-1, and HT-LTF-2 are training fields, and are used to estimate transmission and reception transmission paths in communication using a plurality of antennas such as MIMO, for example. It is a field.
Data, HT-DATA is a field including actual data modulated by the modulation scheme specified in L-SIG or HT-SIG.
In the frame format of the wireless communication terminal HT-MC-STA in FIG. 5, what is described as “Duplicate” indicates that the same as that transmitted on the channel CH_a is transmitted on the channel CH_b. Show.

  Here, if the data transmission time to be transmitted is determined from the information of the modulation method (Rate) and the data length (Length) included in the L-STF which is a common field, the time EIFS for completing the data transmission of the device itself (Extended InterFrame Space) can be set, but the frame formats of the radio communication terminal HT-STA and the radio communication terminal HT-MC-STA include HT-STF, HT-LTF-1, and HT- Since areas and overheads such as LTF-2 and HT-DATA that cannot be understood by the wireless communication terminal L-STA are included, the modulation method (Rate) and data included in the L-SIG which is a common field Establish actual data transmission time from length information and set EIFS Even when trying to do so, the wireless communication terminal L-STA may determine the wrong transmission time length and set the EIFS.

Therefore, a method called “Spoofing” has been proposed. In the formats of FIGS. 4 and 5, “Spoofing” is a modulation method (Rate) and a data length (Length) so as to coincide with the actual data transmission time. It is the method of deriving the combination of and setting to L-SIG.
In this case, the radio communication terminal HT-STA and the radio communication terminal HT-MC-STA calculate the transmission time by using the HT-Rate and HT-Length for HT included in HT-SIG and the like.
However, “Spoofing” here is not used for controlling a sequence period of a plurality of frame transmissions or 20 MHz operation and 40 MHz operation.

FIG. 6 is an explanatory diagram showing a “Channel Management” method in a conventional wireless LAN system.
FIG. 6 shows an example in which two channels are used, where CH_a (Control) is a basic channel and CH_b (Extension) is an extension channel.
The wireless communication terminal L-STA and the wireless communication terminal HT-STA can operate only on the channel CH_a (for example, the wireless communication terminal L-STA and the wireless communication terminal in another BSS (network created by another access point)). HT-STA can operate only on channel CH_b), and wireless communication terminal HT-MC-STA can operate on both channel CH_a and channel CH_b. Here, for simplification of explanation, the radio communication terminal L-STA and the radio communication terminal HT-STA can operate only on the channel CH_a, and the radio communication terminal L-STA and the radio communication terminal HT-STA in other BSSs. However, the present invention is not limited to this, and the combination of overlap between the wireless communication terminal L-STA and the wireless communication terminal HT-STA is as shown in FIG. There are various types.
Further, since the channel CH_a and the channel CH_b are each configured with a bandwidth of 20 MHz, when the channel CH_a or the channel CH_b is used singly, the operation is 20 MHz, and both the channel CH_a and the channel CH_b are simultaneously performed. When used, the operation is 40 MHz.

For example, the terminal control device as an access point prohibits data transmission between the wireless communication terminal L-STA and the wireless communication terminal HT-STA so that the wireless communication terminal HT-MC-STA can perform 40 MHz data transmission. The channel CH_a is subjected to carrier sense CS, and if the channel CH_a is unused, wireless data including transmission prohibition information instructing prohibition of data transmission is generated, and the channel CH_a is used to generate the radio data. Data is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA.
FIG. 6 shows an example in which wireless data is transmitted using a BCN (Beacon) or ICB (Increase Channel Band) frame, but the ICB frame is new to perform “Channel Management” at 20 MHz and 40 MHz. When the existing wireless communication terminal L-STA cannot understand the newly defined ICB frame and cannot read the transmission prohibition information for instructing prohibition of data transmission. There is.

  If the wireless communication terminal L-STA and the wireless communication terminal HT-STA can receive the wireless data transmitted from the terminal control apparatus and read the transmission prohibition information included in the wireless data, a virtual called NAV is obtained. Carrier sense information is set, and data transmission using the channel CH_a is stopped for a specified time.

Next, in the terminal control apparatus, when the channel CH_a and the channel CH_b are operating independently and the channel CH_b is in a use state (Busy state) due to interference from other BSSs, the channel CH_b is released. If the channel CH_b can be confirmed to be unused, the channel CH_b can be used to transmit wireless data including transmission prohibition information to other BSSs. It transmits to communication terminal L-STA and wireless communication terminal HT-STA.
FIG. 6 shows an example in which wireless data is transmitted in a CTS (CTS-to-myself) or BCN (Beacon) frame.

  When the wireless communication terminal L-STA and the wireless communication terminal HT-STA in the other BSS receive the wireless data transmitted from the terminal control device and read the transmission prohibition information included in the wireless data, the NAV is determined. Set to suspend data transmission using channel CH_b for a specified time.

When the terminal control device prohibits the use of the channel CH_a or the channel CH_b by the radio communication terminal L-STA and the radio communication terminal HT-STA as described above, the terminal control device prohibits data transmission in the radio communication terminal HT-MC-STA. In order to cancel, radio data including prohibition cancellation information for canceling prohibition of transmission is transmitted to radio communication terminal HT-MC-STA using channels CH_a and CH_b.
FIG. 6 shows an example in which wireless data is transmitted using a CF-END frame.

  When the wireless communication terminal HT-MC-STA receives the wireless data transmitted from the terminal control device and reads the prohibition cancellation information included in the wireless data, the wireless communication terminal HT-MC-STA cancels the NAV and shifts to a communicable state. , 40 MHz data transmission is started using channels CH_a and CH_b.

Next, when the terminal control device prohibits data transmission of the radio communication terminal HT-MC-STA and enables the radio communication terminal L-STA and the radio communication terminal HT-STA to perform 20 MHz data transmission, Using CH_a and CH_b, wireless data including transmission prohibition information is transmitted to the wireless communication terminal HT-MC-STA.
FIG. 6 shows an example in which wireless data is transmitted using a DCB (Decrease Channel Band) frame. Since the DCB frame is a newly defined frame for performing “Channel Management” of 20 MHz and 40 MHz, the existing wireless communication terminal L-STA can understand the newly defined DCB frame. Can not. Further, since the radio communication terminal HT-STA is a frame transmitted at 40 MHz, it cannot understand the frame in the data area. However, the fields up to HT-SIG can be understood.

  When the wireless communication terminal HT-MC-STA receives the wireless data transmitted from the terminal control apparatus and reads the transmission prohibition information included in the wireless data, the wireless communication terminal HT-MC-STA sets the NAV and sets the channels CH_a and CH_b. Stop using the data transmission for a specified time.

When the terminal controller prohibits the use of the channels CH_a and CH_b by the wireless communication terminal HT-MC-STA as described above, the data transmission of the wireless communication terminal L-STA and the wireless communication terminal HT-STA in other BSSs In order to cancel the prohibition, the wireless data including the prohibition cancellation information for canceling the prohibition of transmission is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA in the other BSS using CH_b.
FIG. 6 shows an example in which wireless data is transmitted using a CF-END frame.

  When the wireless communication terminal L-STA and the wireless communication terminal HT-STA in the other BSS receive the wireless data transmitted from the terminal control device and read the prohibition release information included in the wireless data, the NAV is determined. It cancels | releases and transfers to a communicable state and starts data transmission of 20 MHz using channel CH_b.

In addition, the terminal control apparatus uses the channel CH_a to cancel the prohibition of transmission in order to cancel the prohibition of data transmission of the wireless communication terminal L-STA and the wireless communication terminal HT-STA that the terminal control device has jurisdiction over. Wireless data including the release information is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA.
FIG. 6 shows an example in which wireless data is transmitted using a CF-END frame.

  When the wireless communication terminal L-STA and the wireless communication terminal HT-STA receive the wireless data transmitted from the terminal control device and read the prohibition release information included in the wireless data, the wireless communication terminal L-STA cancels the NAV and performs communication. A transition is made to the ready state, and 20 MHz data transmission is started using channel CH_a.

IEEE802.11 Standard, HyperLAN2 Standard, IEEE 802.11e-Draft 13.0

Since the conventional wireless LAN system is configured as described above, transmission prohibition information for instructing prohibition of data transmission is transmitted in a newly defined ICB frame in order to perform “Channel Management” of 20 MHz and 40 MHz. In this case, there is a problem that the existing wireless communication terminal L-STA cannot understand the newly defined ICB frame and cannot read the transmission prohibition information instructing prohibition of data transmission.
In addition, in order for the terminal control device to perform “Channel Management” at 20 MHz and 40 MHz, a lot of wireless data must be transmitted to the wireless communication terminal (in the example of FIG. 6, the terminal control device transmits the wireless data six times. There is a problem that the overhead of channel switching increases.
In addition, if the wireless communication terminal HT-MC-STA receives wireless data transmitted from the terminal control device, it can recognize the prohibition or cancellation of the 40 MHz data transmission, but the 20 MHz data transmission is prohibited. Therefore, there is a problem that it is impossible to check whether or not the transmission is canceled, and it is not possible to switch between 40 MHz data transmission and 20 MHz data transmission.

The present invention has been made to solve the above-described problems, and can avoid a situation in which the existing wireless communication terminal L-STA cannot understand the control information and reduce the overhead of channel switching. An object of the present invention is to obtain a terminal control device and a wireless LAN system that can be used.
Another object of the present invention is to obtain a terminal control device and a wireless LAN system that allow the wireless communication terminal HT-MC-STA to perform not only 40 MHz data transmission but also 20 MHz data transmission.

  In the terminal control device according to the present invention, when data transmission of the first wireless communication terminal is prohibited, the header area that can be commonly recognized by the first and second wireless communication terminals includes information on the data transmission prohibition period. If wireless data is generated and it is confirmed by the use state confirmation means that the channel is not being used, the wireless data is received in a frame that can be recognized by the first wireless communication terminal using the single channel. When transmitting data to the first wireless communication terminal while prohibiting data transmission of the second wireless communication terminal, the wireless data including information related to the data transmission prohibition period is generated in the data area and includes the single channel. The wireless data is transmitted to the second wireless communication terminal using a plurality of channels.

  As described above, according to the present invention, when the data transmission of the first wireless communication terminal is prohibited, the information related to the prohibition period of the data transmission in the header area that can be commonly recognized by the first and second wireless communication terminals. If the use state confirmation unit confirms that the channel is not used, the wireless data is generated in a frame that can be recognized by the first wireless communication terminal using the single channel. When transmitting data to the first wireless communication terminal while prohibiting data transmission of the second wireless communication terminal, the wireless data including information on the data transmission prohibition period is generated in the data area, and the single channel is generated. Since the wireless data is transmitted to the second wireless communication terminal using a plurality of channels including the first wireless communication terminal, the first wireless communication terminal knows the information related to the data transmission prohibition period. It is possible to avoid a situation that can not, there is an effect capable of reducing the overhead of channel switching.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the wireless LAN system by Embodiment 1 of this invention. It is a block diagram which shows the terminal control apparatus 1 of the wireless LAN system by Embodiment 1 of this invention. It is explanatory drawing which shows the frame format of the radio | wireless communication terminal L-STA. It is explanatory drawing which shows the frame format of the radio | wireless communication terminal HT-STA. It is explanatory drawing which shows the frame format of the radio | wireless communication terminal HT-MC-STA. It is explanatory drawing which shows the "Channel Management" method in the conventional wireless LAN system. It is explanatory drawing which shows the "Channel Management" method in the wireless LAN system by Embodiment 1 of this invention. It is explanatory drawing which shows the "Channel Management" method in the wireless LAN system by Embodiment 2 of this invention. It is explanatory drawing which shows the storage content of the L-SERVICE field. It is explanatory drawing which shows the combination of an overlap.

Hereinafter, in order to describe the present invention in more detail, the best mode for carrying out the present invention will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing a wireless LAN system according to Embodiment 1 of the present invention. In FIG. 1, a wireless communication terminal L-STA performs wireless communication using a channel CH_a having a bandwidth of 20 Hz, for example. It is a wireless communication terminal.
The wireless communication terminal HT-STA is a first wireless communication terminal that performs high-speed transmission such as MIMO using the channel CH_a.
The radio communication terminal HT-MC-STA can perform high-speed radio communication such as MIMO using the channels CH_a and CH_b (channel having a bandwidth of 40 Hz) and uses either the channel CH_a or the channel CH_b. And a second wireless communication terminal capable of performing wireless communication.
The terminal control device 1 performs processing for controlling wireless communication of the wireless communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT-MC-STA that are connected to each other via a wireless LAN.
In addition, although this Embodiment 1 demonstrates the thing provided with the terminal control apparatus 1 separately from the radio | wireless communication terminal L-STA, the radio | wireless communication terminal HT-STA, and the radio | wireless communication terminal HT-MC-STA, The communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT-MC-STA may serve as the function of the terminal control device 1.

FIG. 2 is a block diagram showing the terminal controller 1 of the wireless LAN system according to Embodiment 1 of the present invention. In the figure, the broadband wireless unit 12 is connected to the antenna 11 and the wireless data output from the signal processing unit 13 is shown. Is emitted from the antenna 11 into the air, and processing such as outputting the wireless data received by the antenna 11 to the signal processing unit 13 is performed. When the wireless communication terminal HT-STA and the wireless communication terminal HT-MC-STA perform high-speed wireless communication using the MIMO technology, a plurality of antennas 11 are connected to the broadband wireless unit 12. .
When the use state confirmation unit 21 of the signal processing unit 13 prohibits data transmission of the wireless communication terminal L-STA and the wireless communication terminal HT-STA, it controls the broadband wireless unit 12 to perform carrier sense SC, thereby A process for confirming the use state of CH_a is performed.
The broadband wireless unit 12 and the usage status confirmation unit 21 constitute usage status confirmation means.

  When the wireless data generation unit 22 of the signal processing unit 13 prohibits data transmission of the wireless communication terminal L-STA and the wireless communication terminal HT-STA, the wireless communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT -Wireless data including a modulation method (Rate) and a data length (Length) are generated in the L-SIG, which is a header area that can be commonly recognized by MC-STAs, as data transmission prohibition period. When prohibiting data transmission of the terminal HT-MC-STA, the wireless communication terminal HT-STA and the wireless communication terminal HT-MC such as the L-SERVICE field in the data area, or the Reserved Bit of L-SIG or HT-SIG -Information on the prohibition period of data transmission in the field that STA can understand together. As, it performs processing such as generating the radio data containing single-channel use permission information indicating permission to use one of the channel CH_a or the channel CH_B.

When the data transmission processing unit 23 of the signal processing unit 13 prohibits data transmission of the radio communication terminal L-STA and the radio communication terminal HT-STA, the use state confirmation unit 21 confirms that the channel CH_a is not in use. Then, using the channel CH_a, the wireless data generated by the wireless data generation unit 22 in the frame recognizable by the wireless communication terminal L-STA and the wireless communication terminal HT-STA is converted into the wireless communication terminal L-STA and the wireless communication terminal L-STA. When transmitting data to the communication terminal HT-STA while prohibiting data transmission of the radio communication terminal HT-MC-STA, the radio data generated by the radio data generation unit 22 is transmitted to the radio communication terminal using the channels CH_a and CH_b. Processing such as transmission to the HT-MC-STA is performed.
The broadband wireless unit 12, the wireless data generation unit 22, and the data transmission processing unit 23 constitute first and second wireless data transmission means.

Next, the operation will be described.
FIG. 7 is an explanatory diagram showing the “Channel Management” method in the wireless LAN system according to the first embodiment of the present invention.
FIG. 7 shows an example in which two channels are used, where CH_a (Control) is a basic channel and CH_b (Extension) is an extension channel.
The wireless communication terminal L-STA and the wireless communication terminal HT-STA that the terminal control device 1 has jurisdiction can operate only on the channel CH_a (wireless communication terminal in another BSS (network created by another access point)). L-STA and radio communication terminal HT-STA can operate only on channel CH_b), and radio communication terminal HT-MC-STA can operate on both channel CH_a and channel CH_b. Here, for simplification of explanation, the radio communication terminal L-STA and the radio communication terminal HT-STA can operate only on the channel CH_a, and the radio communication terminal L-STA and the radio communication terminal HT-STA in other BSSs. However, the present invention is not limited to this, and the combination of overlap between the wireless communication terminal L-STA and the wireless communication terminal HT-STA is as shown in FIG. There are various types.
Further, since the channel CH_a and the channel CH_b are each configured with a bandwidth of 20 MHz, when the channel CH_a or the channel CH_b is used singly, the operation is 20 MHz, and both the channel CH_a and the channel CH_b are simultaneously performed. When used, the operation is 40 MHz.

  For example, the terminal control device 1 that is an access point prohibits data transmission between the wireless communication terminal L-STA and the wireless communication terminal HT-STA that it is in charge of, and the wireless communication terminal HT-MC-STA is 40 MHz. When data transmission can be performed, carrier sense CS of channel CH_a is performed, and if channel CH_a is unused, wireless data including information on the data transmission prohibition period is generated, and the channel CH_a is used. Then, the wireless data is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA.

That is, the usage state confirmation unit 21 of the signal processing unit 13 in the terminal control device 1 controls the broadband wireless unit 12 to perform carrier sense when prohibiting data transmission of the wireless communication terminal L-STA and the wireless communication terminal HT-STA. By performing the SC, a process for confirming the use state of the channel CH_a is performed.
In addition, the wireless data generation unit 22 of the signal processing unit 13 is configured such that the wireless communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT-MC-STA are L-SIG ( Radio data including a modulation method (Rate) and a data length (Length) are generated in the field of FIG.
The wireless data generation unit 22 uses a technique called “Spoofing”, and the data transmission prohibition period that can be calculated from the modulation method (Rate) and the data length (Length) cancels the prohibition of data transmission. The values of the modulation method (Rate) and the data length (Length) are determined so as to coincide with the transmission time of the CF-END frame to be transmitted.

If the use state confirmation unit 21 confirms that the channel CH_a is not in use, the data transmission processing unit 23 of the signal processing unit 13 uses the channel CH_a to perform the wireless communication terminal L-STA and the wireless communication. In a frame that can be recognized by the terminal HT-STA, the wireless data generated by the wireless data generation unit 22 is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA.
That is, the data transmission processing unit 23 modulates the wireless data generated by the wireless data generation unit 22 and outputs the modulated data to the broadband wireless unit 12. The broadband wireless unit 12 uses the channel CH_a under the instruction of the data transmission processing unit 23 to radiate a modulated signal of the wireless data from the antenna 11 into the air, thereby transmitting the wireless data to the wireless communication terminal L−. It transmits to STA and radio | wireless communication terminal HT-STA.
Although FIG. 7 shows an example in which wireless data is transmitted using BCN (Beacon), CF-Poll, or RTS frame, the wireless communication terminal L-STA and the wireless communication terminal HT-STA can recognize it. If it is a simple frame, the wireless data may be transmitted in another frame.

  When the wireless communication terminal L-STA and the wireless communication terminal HT-STA receive the wireless data transmitted from the terminal control device 1, the modulation method (Rate) and the data length (from the L-SIG which is the header area of the wireless data) Length) is extracted, a data transmission prohibition period is determined from the modulation scheme (Rate) and data length (Length), virtual carrier sense information called NAV is set during the prohibition period, and channel CH_a is used. Prohibit data transmission. Alternatively, the NAV is set based on the information in the Duration field in the MAC. In addition, since this frame could not be received, when the wireless communication terminal L-STA and the wireless communication terminal HT-STA that communicate on the channel CH_a after this frame communicate on the channel CH_a, the next frame is transmitted. It is also possible to improve the confirmation of a transmission prohibition instruction to a terminal having a bad reception environment by retransmitting this frame before the transmission.

  Next, when the channel CH_a and the channel CH_b operate independently and the channel CH_b is in a use state (Busy state) due to interference from other BSSs, the terminal controller 1 releases the channel CH_b. Until the channel CH_b is confirmed to be in an unused state, the channel CH_b is used to set the modulation method (Rate) and the data length (Length). The included wireless data is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA in another BSS.

That is, the use state confirmation unit 21 of the signal processing unit 13 in the terminal control device 1 performs processing for confirming the use state of the channel CH_b by controlling the broadband wireless unit 12 and performing carrier sense CS.
Similarly to the case where data transmission using the channel CH_a is prohibited, the wireless data generation unit 22 of the signal processing unit 13 sets the data transmission prohibited period in the field of L-SIG (see FIGS. 3 to 5). As information on the radio data, radio data including a modulation method (Rate) and a data length (Length) is generated.

When the wireless data generation unit 22 generates wireless data including a modulation scheme (Rate) and a data length (Length), the wireless communication terminal L-STA and the wireless communication terminal HT-STA are prohibited from using the channel CH_a or the channel CH_b. At the same time, in order to allow 40 MHz wireless communication by the wireless communication terminal HT-MC-STA, multiple channel use permission information CHSw. Indicating that the use of the channels CH_a and CH_b is permitted. Ind (40) is understood by both the wireless communication terminal HT-STA and the wireless communication terminal HT-MC-STA such as the L-SERVICE field that is the data area of the wireless data, or the L-SIG or HT-SIG Reserved Bit. Be included in the possible fields.
In the US wireless LAN standard IEEE802.11, the L-SERVICE field is a 16-bit field, but the [0: 6] bits of the L-SERVICE indicate a rule for inserting NULL. 7:15] is reserved. For example, by using 2 bits of the 9-bit reserve, the multiple channel use permission information CHSw. ind (40) is included.

9 is an explanatory diagram showing the contents stored in the L-SERVICE field. In the example of FIG. 9, when # 8 is “1” and # 9 is “0”, the multiple channel use permission information CHSw. Ind (40) is included.
Here, the reserved bits of the L-SERVICE field include the multi-channel use permission information CHSw. ind (40) is included, but the present invention is not limited to this, and the multi-channel use permission information CHSw. ind (40) may be included.

If the use state confirmation unit 21 confirms that the channel CH_b is unused, the data transmission processing unit 23 of the signal processing unit 13 uses the channels CH_a and CH_b to generate the data transmission processing unit 23. The transmitted wireless data is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA in another BSS, and the wireless data is transmitted to the wireless communication terminal HT-MC-STA.
That is, the data transmission processing unit 23 modulates the wireless data generated by the wireless data generation unit 22 and outputs the modulated data to the broadband wireless unit 12. The broadband wireless unit 12 uses the channels CH_a and CH_b under the instruction of the data transmission processing unit 23 to radiate the modulated data of the wireless data from the antenna 11 into the air, thereby transmitting the wireless data to the wireless communication terminal. While transmitting to L-STA and radio | wireless communication terminal HT-STA, the radio | wireless data are transmitted to radio | wireless communication terminal HT-MC-STA.
Although FIG. 7 shows an example in which wireless data is transmitted at 40 Hz in a CF-Poll or CTS-to-myself frame, the wireless communication terminal L-STA and the wireless communication terminal HT-STA in another BSS are shown. If the wireless communication terminal HT-MC-STA can recognize the frame, the wireless data may be transmitted in another frame.

  When the wireless communication terminal L-STA and the wireless communication terminal HT-STA in the other BSS receive the wireless data transmitted from the terminal control device 1, the modulation method (Rate) is generated from L-SIG which is the header area of the wireless data. And the data length (Length) are extracted, the prohibition period of data transmission is determined from the modulation scheme (Rate) and the data length (Length), and during this prohibition period, virtual carrier sense information called NAV is set, and the channel Data transmission using CH_b is prohibited.

When the wireless communication terminal HT-MC-STA receives the wireless data transmitted from the terminal control apparatus 1, the wireless communication terminal HT-MC-STA receives the multi-channel use permission information CHSw.L from the L-SERVICE that is the data area of the wireless data. ind (40) is extracted.
The wireless communication terminal HT-MC-STA receives the multiple channel use permission information CHSw. When ind (40) is extracted, it recognizes that 40-MHz wireless communication is permitted, cancels NAV, and thereafter starts data transmission of 40 MHz using channels CH_a and CH_b.

  Next, when the terminal control device 1 prohibits data transmission of the radio communication terminal HT-MC-STA and enables the radio communication terminal L-STA and the radio communication terminal HT-STA to perform 20 MHz data transmission, Using channels CH_a and CH_b, radio data including information on prohibition of data transmission is transmitted to the radio communication terminal HT-MC-STA in the Duration field in the MAC header that is the data area, and L- Radio data including information on prohibition of data transmission cancellation is transmitted to the radio communication terminal L-STA and the radio communication terminal HT-STA in the SIG.

That is, the wireless data generation unit 22 of the terminal control device 1 prohibits 40 MHz wireless communication by the wireless communication terminal HT-MC-STA and permits 20 MHz wireless communication, so that the L-SERVICE field that is a data area is set. As information on prohibition of data transmission, single channel use permission information CHSw. Indicating that a single use of channel CH_a or channel CH_b is permitted. Wireless data including ind (20) is generated.
In the example of FIG. 9, when # 8 is “0” and # 9 is “1”, the single channel use permission information CHSw. Ind (20) is included.
Here, the single channel use permission information CHSw. Indic (20) is included. However, the present invention is not limited to this, and the single channel use permission information CHSw. ind (20) may be included.

In addition, the wireless data generation unit 22 uses the single channel use permission information CHSw. When wireless data including ind (20) is generated, prohibited period information NAVch_40 indicating a data transmission prohibited period is included in the Duration field in the data area of the wireless data.
The wireless data generation unit 22 uses a technique called “Spoofing”, and the data transmission prohibition period indicated by the prohibition period information NAVch_40 is CF-Poll or CTS-transmitted when canceling the prohibition of data transmission. The value of the prohibition period information NAVch_40 is determined so as to coincide with the transmission time of the to-myself frame.
In this example, the prohibition period information NAVch_40 is included in the Duration field. However, the present invention is not limited to this, and the prohibition period information NAVch_40 may be included in other unused bits.
Further, since the wireless data generation unit 22 cancels the prohibition of 20 MHz data transmission by the wireless communication terminal L-STA and the wireless communication terminal HT-STA, the data transmission prohibition period is zero as information regarding the prohibition of data transmission. A combination of a modulation scheme (Rate) and a data length (Length) indicating that is included in L-SIG which is a header area of wireless data.

The data transmission processing unit 23 of the signal processing unit 13 uses the channels CH_a and CH_b to transmit the wireless data generated by the wireless data generation unit 22 to the wireless communication terminal HT-MC-STA, and the wireless data Is transmitted to the wireless communication terminal L-STA and the wireless communication terminal HT-STA.
That is, the data transmission processing unit 23 modulates the wireless data generated by the wireless data generation unit 22 and outputs the modulated data to the broadband wireless unit 12. The broadband wireless unit 12 uses the channels CH_a and CH_b under the instruction of the data transmission processing unit 23 to radiate the modulated data of the wireless data from the antenna 11 into the air, thereby transmitting the wireless data to the wireless communication terminal. It transmits to HT-MC-STA, radio | wireless communication terminal L-STA, and radio | wireless communication terminal HT-STA.

When the wireless communication terminal HT-MC-STA receives the wireless data transmitted from the terminal control device 1, the wireless communication terminal HT-MC-STA receives the single channel use permission information CHSw. ind (20) is extracted.
The radio communication terminal HT-MC-STA transmits the single channel use permission information CHSw. When ind (20) is extracted, it is recognized that 40 MHz wireless communication is prohibited and 20 MHz wireless communication is permitted.
Thereby, the wireless communication terminal HT-MC-STA sets the NAV and prohibits 40 MHz data transmission using the channels CH_a and CH_b, but since 20 MHz wireless communication is permitted, the channel CH_a Alternatively, 20 MHz data transmission is started using either channel CH_b.

When the wireless communication terminal L-STA and the wireless communication terminal HT-STA receive the wireless data transmitted from the terminal control device 1, the modulation method (Rate) and the data length (from the L-SIG which is the header area of the wireless data) Length) is extracted, and it is recognized from the modulation scheme (Rate) and data length (Length) that the prohibition of data transmission has been lifted. Thereafter, the channel CH_a is used (the wireless communication terminal L in another BSS). -The STA and the wireless communication terminal HT-STA use the channel CH_b) and start 20 MHz data transmission.
Although FIG. 7 shows an example in which the CF-END frame is transmitted at 40 Hz, this is a frame that can be recognized by the wireless communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT-MC-STA. Needless to say, the wireless data may be transmitted in another frame.

  As apparent from the above, according to the first embodiment, when data transmission between the radio communication terminal L-STA and the radio communication terminal HT-STA is prohibited, the radio communication terminal L-STA and the radio communication terminal HT-STA And the wireless communication terminal HT-MC-STA generates wireless data including information related to the data transmission prohibition period in the L-SIG, which is a header area that can be commonly recognized, and the channel CH_a is used by the use state confirmation unit 21 If it is confirmed that there is not, the wireless communication terminal L-STA and the wireless communication terminal HT use the channel CH_a to transmit the wireless data in a frame that can be recognized by the wireless communication terminal L-STA and the wireless communication terminal HT-STA. -When transmitting data to the STA while prohibiting data transmission of the wireless communication terminal HT-MC-STA, the data area is set to L-SERVICE. Wireless data including information related to the prohibited period of data transmission is generated, and the wireless data is transmitted to the wireless communication terminal HT-MC-STA using the channels CH_a and CH_b. The situation where the STA and the wireless communication terminal HT-STA cannot understand the information regarding the data transmission prohibition period can be avoided, and the overhead of channel switching in the terminal control device 1 can be reduced.

That is, according to the first embodiment, a frame that can be understood by an existing wireless communication terminal L-STA (not an ICB frame newly defined for performing “Channel Management” of 20 MHz and 40 MHz) For example, in the BCN, CF-Poll, and RTS frames), wireless data including a modulation method (Rate) and a data length (Length) are transmitted in the L-SIG field as information related to the data transmission prohibition period. Since it comprised in this way, the situation where the radio | wireless communication terminal L-STA and the radio | wireless communication terminal HT-STA cannot understand the information regarding the prohibition period of data transmission can be avoided.
Further, according to the first embodiment, even when the terminal control apparatus 1 performs “Channel Management” of 20 MHz and 40 MHz, a large amount of wireless data is not transmitted to the wireless communication terminal (in the example of FIG. 7, the terminal Since the control device 1 transmits wireless data only three times), the channel can be switched, so that the overhead of channel switching can be reduced.

  Further, according to the first embodiment, the wireless data generation unit 22 adds the single channel use permission information CHSw. ind (20) and multiple channel use permission information CHSw. Since it is configured to include ind (40), there is an effect that the radio communication terminal HT-MC-STA can perform not only 40 MHz data transmission but also 20 MHz data transmission.

Embodiment 2. FIG.
In the first embodiment, the wireless data generation unit 22 uses a technique called “Spoofing” and the data transmission prohibition period that can be determined from the modulation method (Rate) and the data length (Length) is the data transmission. In the above description, the modulation method (Rate) and the data length (Length) values are determined so as to coincide with the transmission time of the CF-END frame to be transmitted when the prohibition is canceled. In such a case, the data transmission prohibition period may exceed the maximum prohibition period that can be set in the L-SIG field.

In the second embodiment, when the data transmission prohibition period exceeds the maximum prohibition period that can be set in the L-SIG field, the wireless data generation unit 22 generates wireless data a plurality of times, and the data transmission processing unit 23 transmits the wireless data a plurality of times to the wireless communication terminal L-STA and the wireless communication terminal HT-STA, thereby updating the data transmission prohibition period.
Specifically, it is as follows.
FIG. 8 is an explanatory diagram showing the “Channel Management” method in the wireless LAN system according to the second embodiment of the present invention.

If the data transmission prohibition period exceeds the maximum prohibition period that can be set in the L-SIG field, the wireless data generation unit 22 of the terminal control device 1 will temporarily set the L-SIG field as the data transmission prohibition period. Set the maximum prohibited period that can be set to.
The data transmission processing unit 23 of the terminal control device 1 transmits the wireless data for which the maximum prohibition period is set by the wireless data generation unit 22 to the wireless communication terminal L-STA and the wireless communication terminal HT- as in the first embodiment. Send to STA.
As a result, when wireless communication terminal L-STA and wireless communication terminal HT-STA receive wireless data transmitted from terminal control device 1, data transmission using channel CH_a is prohibited as in the first embodiment. However, at this time, the data transmission prohibition period is shorter than the desired period.

The wireless data generation unit 22 of the terminal control device 1 sets a period that is shorter than a desired period in the L-SIG field as the data transmission prohibition period in order to extend the data transmission prohibition period. However, if the deficient period exceeds the maximum prohibition period that can be set in the L-SIG field, the maximum prohibition period that can be set in the L-SIG field is set.
In the example of FIG. 8, since the deficient period exceeds the maximum prohibition period that can be set in the L-SIG field, the maximum prohibition period that can be set in the L-SIG field is set.
The data transmission processing unit 23 of the terminal control device 1 transmits the wireless data in which the shortage period (or the maximum prohibited period) is set by the wireless data generation unit 22 to the wireless communication terminal L-STA and the wireless communication terminal HT-STA. Send to.
Thus, when the wireless communication terminal L-STA and the wireless communication terminal HT-STA receive the wireless data transmitted from the terminal control apparatus 1, the data transmission prohibition period is updated according to the setting contents of the L-SIG of the wireless data. To do.

The wireless data generation unit 22 of the terminal control device 1 repeatedly sets a period (or maximum prohibition period) that is insufficient in the L-SIG field until the data transmission prohibition period reaches a desired period, and performs data transmission processing. The unit 23 repeatedly transmits wireless data to the wireless communication terminal L-STA and the wireless communication terminal HT-STA.
The example of FIG. 8 shows a state in which wireless data is transmitted four times and the data transmission prohibition period is updated three times.

  As is apparent from the above, according to the second embodiment, when the data transmission prohibition period exceeds the maximum prohibition period that can be set in the L-SIG field, the wireless data generation unit 22 performs wireless data multiple times. Since the data transmission processing unit 23 transmits the wireless data to the wireless communication terminal L-STA and the wireless communication terminal HT-STA multiple times, the data transmission prohibition period is updated. Even when the transmission prohibition period exceeds the maximum prohibition period that can be set in the L-SIG field, the desired prohibition period can be set.

In the first and second embodiments, the wireless data generation unit 22 uses a technique called “Spoofing” to prohibit data transmission that can be calculated from the modulation method (Rate) and the data length (Length). However, the modulation method (Rate) and the data length (Length) are determined so as to coincide with the transmission time of the CF-END frame transmitted when the prohibition of data transmission is canceled. There may be a situation where the prohibition of data transmission may be canceled earlier than scheduled.
In such a case, when transmitting a CF-END frame, the value of the modulation scheme (Rate) and the data length (Length) set in the L-SIG field is a value indicating that the data transmission prohibition period is zero. To decide.
As a result, if a situation where the prohibition of data transmission may be canceled occurs, the prohibition of data transmission can be canceled even before the initially set prohibition period elapses. There is an effect that can be.

Embodiment 3 FIG.
In the first and second embodiments, the wireless LAN system using the channels CH_a and CH_b has been described. However, the number of channels is not limited to two, and three or more channels may be used. Needless to say.
Further, the channels to be used may be channels adjacent to each other or channels separated from each other.

  In the first and second embodiments, the terminal control apparatus 1 is provided as an access point separately from the wireless communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT-MC-STA. However, as described in IEEE802.11e-D13.0, the function of the terminal control apparatus 1 is such that the wireless communication terminal L-STA, the wireless communication terminal HT-STA, and the wireless communication terminal HT-MC-STA are CAP. You may make it serve as.

  Furthermore, in the first and second embodiments, the radio data generation unit 22 uses the single channel use permission information CHSw. ind (20) and multiple channel use permission information CHSw. In the case of including the ind (40), as long as the wireless communication terminal HT-MC-STA can recognize, the field is not limited to the L-SERVICE field. For example, L-SIG, HT-SIG, MAC "Reserved Bit" of the single channel use permission information CHSw. ind (20) and multiple channel use permission information CHSw. ind (40) may be included.

  As described above, the terminal control device and the wireless LAN system according to the present invention can be widely applied to communication systems and the like that require channel control in a method that does not cause collision and interference between terminals.

Claims (12)

  When prohibiting data transmission of a first wireless communication terminal that performs wireless communication using a single channel, a use state confirmation means for confirming the use state of the single channel, and the single channel Generating wireless data including information regarding a data transmission prohibition period in a header area that can be commonly recognized by the second wireless communication terminal and the first wireless communication terminal that perform wireless communication using a plurality of channels including If the use state confirmation means confirms that the channel is not being used, the first wireless communication terminal uses the single channel to transmit the wireless data in a frame recognizable by the first wireless communication terminal. When the data transmission of the first wireless data transmission means for transmitting to the wireless communication terminal and the second wireless communication terminal is prohibited, the data area contains no information on the data transmission prohibition period. Generating data using a plurality of channels including the single channel, the terminal control apparatus and a second wireless data transmission means for transmitting the radio data to the second wireless communication terminal.   The first wireless data transmitting means transmits the wireless data to the first wireless communication terminal a plurality of times when the data transmission prohibition period exceeds the maximum prohibition period that can be set in the header area, thereby prohibiting data transmission. The terminal control apparatus according to claim 1, wherein the period is updated.   The first wireless data transmission means uses a plurality of channels including a single channel, and wireless data including information related to a prohibition period of data transmission in a header region is transmitted using a channel different from the single channel. The terminal control apparatus according to claim 1, wherein the terminal control apparatus transmits to a communication terminal.   When the second wireless data transmission unit cancels the prohibition of data transmission of the first wireless communication terminal, the first wireless data transmission unit generates the wireless data to be transmitted to the second wireless communication terminal. 2. The terminal control device according to claim 1, wherein information relating to cancellation of prohibition of data transmission is included in a header area that can be commonly recognized.   The first wireless data transmission means generates wireless data including information related to the prohibition of data transmission in the data area when canceling the prohibition of data transmission of the second wireless communication terminal, and includes a plurality of data including a single channel. The terminal control apparatus according to claim 1, wherein the wireless data is transmitted to the second wireless communication terminal using the channel of the first wireless communication terminal.   6. The terminal according to claim 5, wherein the first wireless data transmission means includes, in the data area, multiple channel use permission information indicating permission to use a plurality of channels as information related to cancellation of prohibition of data transmission. Control device.   The second wireless data transmission means includes, in the data area, single channel use permission information indicating that use of a single channel is permitted as information relating to a data transmission prohibition period. Terminal control device.   A first wireless communication terminal that performs wireless communication using a single channel; a second wireless communication terminal that performs wireless communication using a plurality of channels including the single channel; In a wireless LAN system in which a terminal control device that controls wireless communication of the first and second wireless communication terminals is connected to each other via a wireless LAN, the terminal control device transmits data of the first wireless communication terminal. In the case of prohibition, the use state confirmation means for confirming the use state of the single channel, and a radio including information related to the prohibition period of data transmission in the header area that can be commonly recognized by the first and second wireless communication terminals If it is confirmed that the channel is not used by the use state confirmation means, a frame that can be recognized by the first wireless communication terminal using the single channel is generated. In the case of prohibiting data transmission of the first wireless data transmission means for transmitting the wireless data to the first wireless communication terminal and the second wireless communication terminal, information on the data transmission prohibition period is stored in the data area. And a second wireless data transmission unit configured to generate wireless data including the plurality of channels including the single channel and transmit the wireless data to the second wireless communication terminal. A wireless LAN system.   When the first wireless communication terminal receives wireless data including information related to the prohibition period of data transmission in the header area from the terminal control apparatus, the first wireless communication terminal reads information related to the prohibition period from the header area and transmits data during the prohibition period. When the second wireless communication terminal receives the wireless data including the information related to the prohibition period of data transmission in the data area from the terminal control device, the second wireless communication terminal reads out the information related to the prohibition period from the data area and 9. The wireless LAN system according to claim 8, wherein the data transmission process is stopped during the period.   The first wireless data transmission means generates wireless data including information related to the prohibition of data transmission in the data area when canceling the prohibition of data transmission of the second wireless communication terminal, and includes a plurality of data including a single channel. 9. The wireless LAN system according to claim 8, wherein the wireless data is transmitted to the second wireless communication terminal using the channel.   11. The radio according to claim 10, wherein the first radio data transmitting means includes, in the data area, multi-channel use permission information indicating that the use of a plurality of channels is permitted as information related to prohibition of data transmission. LAN system.   9. The second wireless data transmission means includes, in the data area, single channel use permission information indicating that use of a single channel is permitted as information relating to a data transmission prohibition period. Wireless LAN system.

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